Solid-state image pickup element, image pickup module and electronic equipment

ABSTRACT

The present disclosure relates to a solid-state image pickup element, an image pickup module and electronic equipment configured to avoid large scaling of an image pickup element caused by an improvement in functions thereof. The solid-state image pickup element is configured with a lamination of an image sensor substrate on which a plurality of pixels is arranged on a surface of a sensor, and a signal processing substrate in which signal processing of an image signal output from the image sensor substrate is executed. The signal processing substrate has an electronic blur correction processing unit, a first connection unit that connects with an optical blur correction processing unit, and a second connection unit that connects with a gyro sensor which detects a blur generated in an image. At least a part of signals passed between the gyro sensor and the optical blur correction processing unit passes through the signal processing substrate.

TECHNICAL FIELD

The present disclosure relates to a solid-state image pickup element, animage pickup module and electronic equipment, and particularly, to asolid-state image pickup element, an image pickup module, and electronicequipment which prevent large scaling of an image pickup element causedby an improvement in functions.

BACKGROUND ART

Conventionally used as blur correction processing of correcting a blurgenerated in an image formed by an image pickup element are blurcorrection processing of optically correcting blurs and blur correctionprocessing of electronically correcting blurs. In the optical blurcorrection processing, processing is executed of driving, in a directionto cancel a blur, a lens configuring an optical system in which an imageof a subject is formed on a surface of a sensor of an image pickupelement. Additionally, in the electronic blur correction processing,processing is executed of moving an imaging region to a direction tocancel a blur, the imaging region as a range slightly narrower than asurface of a sensor of an image pickup element.

Further, an image pickup apparatus has been developed which enables aneffect of correcting blurs to be improved by combining the optical blurcorrection processing and the electronic blur correction processing.

For example, Patent Document 1 discloses an image pickup apparatuscapable of efficiently executing image blur correction by detecting animage blur signal using a gyro sensor and executing optical image blurcorrection processing and electronic image blur correction processingaccording to an amount of correction calculated on the basis of theimage blur signal.

CITATION LIST Patent Document

-   -   Patent Document 1: Japanese Patent Application Laid-Open No.        2010-4370

SUMMARY OF THE INVENTION Problems to be Solved by the Invention

In recent years, a layered type image pickup element has been put intopractical use, in which layered are an image sensor substrate with aplurality of pixels arranged on a surface of a sensor, and a signalprocessing substrate in which signal processing of an image signaloutput from the image sensor substrate is executed, so that functions ofimage pickup elements have been improved. For example, incorporatingeither one of a circuit which executes optical blur correctionprocessing and a circuit which executes electronic blur correctionprocessing into a signal processing substrate enables a layered imagepickup element to have a blur correction function.

However, when a blur correction function is incorporated into a layeredimage pickup element, proposed is a configuration including a gyrosensor connected to a signal processing substrate including a circuitwhich executes one blur correction processing and a gyro sensorconnected to a circuit which executes the other blur correctionprocessing. Specifically, in this case, two gyro sensors are requiredbecause a configuration is proposed which includes gyro sensors for theexclusive use for a circuit which executes optical blur correctionprocessing and a circuit which executes electronic blur correctionprocessing, respectively. Accordingly, the number of parts is increasedto increase cost, as well as increasing a scale of an image pickupmodule on which an image pickup element and a gyro sensor are mounted,which is a disadvantage to a trend for downsizing of electronicequipment, and therefore, it is demanded to avoid such large scaling.

The present disclosure has been made in view of such circumstances andaims at avoiding large scaling of an image pickup element caused by animprovement in functions thereof.

Solutions to Problems

A solid-state image pickup element according to one aspect of thepresent disclosure includes: an image sensor substrate in which aplurality of pixels is arranged on a surface of a sensor; and a signalprocessing substrate in which signal processing of an image signaloutput from the image sensor substrate is executed, wherein the signalprocessing substrate has a first blur correction processing unit whichexecutes, by a first correction method, processing of correcting a blurof an image picked up in the image sensor substrate; a first connectionunit that connects with a second blur correction processing unit whichexecutes, by a second correction method, processing of correcting a blurof the image picked up in the image sensor substrate; and a secondconnection unit that connects with a blur detection unit which detects ablur generated in the image, and is configured to have such connectionthat at least a part of signals transmitted and received between theblur detection unit and the second blur correction processing unitpasses through an inside of the signal processing substrate via thefirst connection unit and the second connection unit.

An image pickup module according to one aspect of the present disclosureincludes: a solid-state image pickup element including an image sensorsubstrate on which a plurality of pixels is arranged on a surface of asensor; and a signal processing substrate in which signal processing ofan image signal output from the image sensor substrate is executed andwhich has a first blur correction processing unit that executes, by afirst correction method, processing of correcting a blur of an imagepicked up in the image sensor substrate; a second blur correctionprocessing unit which executes, by a second correction method,processing of correcting a blur of the image picked up in the imagesensor substrate; and a blur detection unit which detects a blurgenerated in the image, wherein the signal processing substrate has: afirst connection unit that connects with the second blur correctionprocessing unit; and a second connection unit that connects with theblur detection unit, and is configured to have such connection that atleast a part of signals transmitted and received between the blurdetection unit and the second blur correction processing unit passesthrough an inside of the signal processing substrate via the firstconnection unit and the second connection unit.

Electronic equipment according to one aspect of the present disclosureincludes an image pickup module, the image pickup module including: asolid-state image pickup element including an image sensor substrate inwhich a plurality of pixels is arranged on a surface of a sensor; and asignal processing substrate in which signal processing of an imagesignal output from the image sensor substrate is executed and which hasa first blur correction processing unit that executes, by a firstcorrection method, processing of correcting a blur of an image picked upin the image sensor substrate; a second blur correction processing unitwhich executes, by a second correction method, processing of correctinga blur of the image picked up in the image sensor substrate; and a blurdetection unit which detects a blur generated in the image, wherein thesignal processing substrate has: a first connection unit that connectswith the second blur correction processing unit; and a second connectionunit that connects with the blur detection unit, and is configured tohave such connection that at least a part of signals transmitted andreceived between the blur detection unit and the second blur correctionprocessing unit passes through an inside of the signal processingsubstrate via the first connection unit and the second connection unit.

According to one aspect of the present disclosure, a solid-state imagepickup element includes an image sensor substrate in which a pluralityof pixels is arranged on a surface of a sensor, and a signal processingsubstrate in which signal processing of an image signal output from theimage sensor substrate is executed. Additionally, the signal processingsubstrate has a first blur correction processing unit which executes, bya first correction method, processing of correcting a blur of an imagepicked up in the image sensor substrate, a first connection unit thatconnects with a second blur correction processing unit which executes,by a second correction method, processing of correcting a blur of animage picked up in the image sensor substrate, and a second connectionunit that connects with a blur detection unit which detects a blurgenerated in an image. Then, connection is configured such that at leasta part of signals transmitted and received between the blur detectionunit and the second blur correction processing unit passes through theinside of the signal processing substrate via the first connection unitand the second connection unit.

Effects of the Invention

According to one aspect of the present disclosure, large scaling of animage pickup element caused by an improvement in functions thereof canbe avoided.

BRIEF DESCRIPTION OF DRAWINGS

FIG. 1 is a block diagram showing a configuration example of a firstembodiment of an image pickup module to which the present technology isapplied.

FIG. 2 is a block diagram showing a configuration example of a secondembodiment of the image pickup module.

FIG. 3 is a block diagram showing a configuration example of a thirdembodiment of the image pickup module.

FIG. 4 is a block diagram showing a configuration example of oneembodiment of an image pickup apparatus to which the present technologyis applied.

FIG. 5 is a diagram showing an example of use of an image sensor.

MODE FOR CARRYING OUT THE INVENTION

In the following, specific embodiments to which the present technologyis applied will be described in detail with reference to the drawings.

FIG. 1 is a block diagram showing a configuration example of a firstembodiment of an image pickup module to which the present technology isapplied.

As shown in FIG. 1, an image pickup module 11 is configured to include asolid-state image pickup element 12, an optical blur correctionprocessing unit 13 and a gyro sensor 14, which are mounted, for example,on one printed board.

The solid-state image pickup element 12 is configured to have an imagesensor substrate 21 and a signal processing substrate 22 layered.

The image sensor substrate 21 is configured with a semiconductorsubstrate in which a plurality of pixels is arranged in matrix on asurface of a sensor and outputs an image signal of a picked up subjectwhose image is formed on the sensor surface by an optical system notshown.

The signal processing substrate 22 is, for example, bonded to thethinned image sensor substrate 21 for supporting the image sensorsubstrate 21 and is also electrically connected thereto to subject animage signal output from the image sensor substrate 21 to various signalprocessing. For example, as shown in the figure, the signal processingsubstrate 22 is configured to include an electronic blur correctionprocessing unit 31, connection pads 32 and 33, and a selector 34.

The electronic blur correction processing unit 31 corrects a blur of animage picked up in the image sensor substrate 21 by an electroniccorrection method. For example, the electronic blur correctionprocessing unit 31 executes correction processing of moving an imagingregion on a sensor surface of the image sensor substrate 21 on the basisof a blur detection signal supplied from the gyro sensor 14 so as tocancel the blur of the image in a direction reverse to a direction ofthe detected blur.

The connection pads 32 and 33 are provided for connecting the signalprocessing substrate 22 to the outside. For example, the connection pad32 has an input terminal 41 in to which a wire through which a signal isinput to the signal processing substrate 22 is connected. Additionally,the connection pad 33 has an input terminal 42 in to which a wirethrough which a signal is input to the signal processing substrate 22 isconnected and an output terminal 42 out to which a wire through which asignal is output from the signal processing substrate 22 is connected.Additionally, the output terminal 42 out is commonly used by an outputfrom the optical blur correction processing unit 13 to the gyro sensor14 and an output from the electronic blur correction processing unit 31to the gyro sensor 14.

The selector 34 switches a wire for exclusively selecting a signal to beoutput from the signal processing substrate 22 via the output terminal42 out of the connection pad 33. For example, the selector 34exclusively selects either one of a signal output from the electronicblur correction processing unit 31 and a signal output from the opticalblur correction processing unit 13 and outputs the same from the signalprocessing substrate 22.

The optical blur correction processing unit 13 corrects a blur of animage picked up by the solid-state image pickup element 12 by an opticalcorrection method. For example, the optical blur correction processingunit 13 executes correction processing of driving a lens (not shown)provided in an optical system in which an image of a subject is formedso as to cancel a blur in a direction reverse to a direction of thedetected blur on the basis of the blur detection signal supplied fromthe gyro sensor 14.

Additionally, the optical blur correction processing unit 13 is providedwith a connection pad 51 for external connection. For example, theconnection pad 51 has an input terminal 52 in to which a wire throughwhich a signal is input to the optical blur correction processing unit13 is connected and an output terminal 52 out to which a wire throughwhich a signal is output from the optical blur correction processingunit 13 is connected.

The gyro sensor 14 is configured with, for example, an accelerationsensor for detecting acceleration, and an angular speed sensor fordetecting an angular speed or the like. For example, the gyro sensor 14outputs the blur detection signal indicating a direction or a size of ablur generated in an image picked up in the image sensor substrate 21 bydetecting blurs of the image pickup module 11 as a whole.

Additionally, the gyro sensor 14 is provided with a connection pad 61for external connection. For example, the connection pad 61 has an inputterminal 62 in to which a wire through which a signal is input to thegyro sensor 14 is connected and an output terminal 62 out to which awire through which a signal is output from the gyro sensor 14 isconnected.

Such solid-state image pickup element 12, optical blur correctionprocessing unit 13 and gyro sensor 14 as described above are mounted ona printed board to configure the image pickup module 11 and areconnected with each other on the printed board via wires.

For example, as shown in the figure, the input terminal 41 in of thesignal processing substrate 22 and the output terminal 52 out of theoptical blur correction processing unit 13 are connected, and the outputterminal 42 out of the signal processing substrate 22 and the inputterminal 62 in of the gyro sensor 14 are connected. Additionally, theinput terminal 42 in of the signal processing substrate 22 and the inputterminal 52 in of the optical blur correction processing unit 13, andthe output terminal 62 out of the gyro sensor 14 are connected.

Additionally, within the signal processing substrate 22, the electronicblur correction processing unit 31 is connected to the input terminal 42in and also to the output terminal 42 out via the selector 34. Further,within the signal processing substrate 22, the input terminal 41 in isconnected to the output terminal 42 out via the selector 34.Accordingly, the output terminal 52 out of the optical blur correctionprocessing unit 13 and the input terminal 62 in of the gyro sensor 14are configured to be connected to each other after passing through theinside of the signal processing substrate 22.

In thus configured image pickup module 11, a request signal forrequesting the blur detection signal from the electronic blur correctionprocessing unit 31 is output from the output terminal 42 out via theselector 34 and then input to the gyro sensor 14 through the inputterminal 62 in. Then, according to the request, the blur detectionsignal output by the gyro sensor 14 is output from the output terminal62 out and supplied to the electronic blur correction processing unit 31via the input terminal 42 in.

Additionally, the request signal requesting the blur detection signalfrom the optical blur correction processing unit 13 is output from theoutput terminal 52 out and input to the inside of the signal processingsubstrate 22 through the input terminal 41 in, then output from theoutput terminal 42 out via the selector 34 and input to the gyro sensor14 from the input terminal 62 in. Specifically, the request signaloutput from the optical blur correction processing unit 13 will besupplied to the gyro sensor 14 via the signal processing substrate 22.Then, according to the request, the blur detection signal output by thegyro sensor 14 is output from the output terminal 62 out and supplied tothe optical blur correction processing unit 13 via the input terminal 52in.

It should be noted that while the blur detection signal output from thegyro sensor 14 is simultaneously supplied to the optical blur correctionprocessing unit 13 and to the electronic blur correction processing unit31, the optical blur correction processing unit 13 and the electronicblur correction processing unit 31 execute the blur correctionprocessing while ignoring other signals than the blur detection signalsupplied in response to their own requests.

Additionally, the signal processing substrate 22 is configured such thateither one of a request signal output from the optical blur correctionprocessing unit 13 and a request signal output from the electronic blurcorrection processing unit 31 is selected and output by the selector 34.This prevents simultaneous supply of two request signals to the gyrosensor 14.

Thus, in the image pickup module 11, supply of the request signal of theoptical blur correction processing unit 13 to the gyro sensor 14 afterpassing through the inside of the signal processing substrate 22 allowsthe optical blur correction processing unit 13 and the electronic blurcorrection processing unit 31 to share one gyro sensor 14. This enablesa size of the image pickup module 11 to be smaller than, for example,that of a configuration in which gyro sensors 14 are provided for theexclusive use for the optical blur correction processing unit 13 and theelectronic blur correction processing unit 31, respectively. In otherwords, it is possible to avoid large scaling of the image pickup module11 as a whole which is caused by improving the functions of thesolid-state image pickup element 12 to have an electronic blurcorrection function.

Additionally, for example, a configuration in which the request signalof the optical blur correction processing unit 13 is supplied to thegyro sensor 14 without passing through the inside of the signalprocessing substrate 22 requires a bus switch to be provided on theprinted board in place of the selector 34. As a result, an area of theimage pickup module 11 is increased as the bus switch is mounted. Inother words, the image pickup module 11 can be reduced in size as awhole by a configuration in which the selector 34 is provided within thesignal processing substrate 22.

Further, such a semiconductor part as the selector 34 can be formed inthe signal processing substrate 22 by using latest techniques, anddesigning which allows high speed driving enables reduction in atransmission delay of a signal which is caused by passing through theinside of the signal processing substrate 22.

Next, FIG. 2 is a block diagram showing a configuration example of asecond embodiment of the image pickup module 11.

It should be noted that in an image pickup module 11A shown in FIG. 2,blocks common to those of the image pickup module 11 in FIG. 1 areidentified by the same reference characters to omit description thereof.Specifically, while the image pickup module 11A is common to the imagepickup module 11 in FIG. 1 in including the optical blur correctionprocessing unit 13 and the gyro sensor 14, a solid-state image pickupelement 12A has a different configuration from the solid-state imagepickup element 12 in FIG. 1.

The solid-state image pickup element 12A is configured to have the imagesensor substrate 21 and a signal processing substrate 22A layered, inwhich a connection pad 32A of the signal processing substrate 22A hasthe input terminal 41 in and an output terminal 41 out.

The output terminal 41 out, to which a wire through which a signal fromthe signal processing substrate 22 is output is connected, is connectedto the input terminal 52 in of the optical blur correction processingunit 13. Additionally, the output terminal 41 out is connected to a wirewhich connects the electronic blur correction processing unit 31 and theinput terminal 42 in inside the solid-state image pickup element 12A.Specifically, connection is configured such that a signal input from theinput terminal 42 in is branched inside the signal processing substrate22 and supplied to the electronic blur correction processing unit 31, aswell as being output from the output terminal 41 out and supplied to theoptical blur correction processing unit 13.

As a result, the image pickup module 11A has a connection configurationsuch that the blur detection signal output from the gyro sensor 14 issupplied to the optical blur correction processing unit 13 after passingthrough the inside of the signal processing substrate 22A. Specifically,the blur detection signal output from the gyro sensor 14, after beingoutput from the output terminal 62 out and input to the inside of thesignal processing substrate 22 through the input terminal 42 in, isoutput through the output terminal 41 out and input to the optical blurcorrection processing unit 13 through the input terminal 52 in.

Thus, the image pickup module 11A is configured such that both therequest signal supplied from the optical blur correction processing unit13 to the gyro sensor 14 and the blur detection signal supplied from thegyro sensor 14 to the optical blur correction processing unit 13 passthrough the inside of the signal processing substrate 22A.

Accordingly, similarly to the image pickup module 11 in FIG. 1, theimage pickup module 11A is allowed to avoid large scaling as a whole.

Next, FIG. 3 is a block diagram showing a configuration example of athird embodiment of the image pickup module 11.

It should be noted that in the image pickup module 11B shown in FIG. 3,blocks common to those of the image pickup module 11 in FIG. 1 areidentified by the same reference characters to omit description thereof.Specifically, while the image pickup module 11B is common to the imagepickup module 11 in FIG. 1 in including the optical blur correctionprocessing unit 13 and the gyro sensor 14, a solid-state image pickupelement 12B has a different configuration from the solid-state imagepickup element 12 in FIG. 1.

The solid-state image pickup element 12B is configured to have the imagesensor substrate 21 and a signal processing substrate 22B layered. Thesignal processing substrate 22B has the electronic blur correctionprocessing unit 31, a connection pad 32B having the input terminal 41 inand the output terminal 41 out, the connection pad 33 having the inputterminal 42 in and the output terminal 42 out, and a data buffer 71.

Additionally, the input terminal 41 in of the signal processingsubstrate 22B and the output terminal 52 out of the optical blurcorrection processing unit 13 are connected, and the output terminal 41out of the signal processing substrate 22B and the input terminal 52 inof the optical blur correction processing unit 13 are connected.Additionally, the input terminal 42 in of the signal processingsubstrate 22B and the output terminal 62 out of the gyro sensor 14 areconnected and the output terminal 42 out of the signal processingsubstrate 22B and the input terminal 62 in of the gyro sensor 14 areconnected.

The data buffer 71 has a memory unit 72, and interfaces 73 and 74.

The memory unit 72 is configured with, for example, a random accessmemory (RAM) and temporarily stores data (a numerical value of adirection or a size of a blur) of the blur detection signal output fromthe gyro sensor 14. Additionally, the data of the blur detection signalstored in the memory unit 72 is updated by data of a new blur detectionsignal output from the gyro sensor 14 when required. For example, theelectronic blur correction processing unit 31 is capable of directlyreading data of the blur detection signal stored in the memory unit 72.

The interface 73 executes processing of transmitting and receiving asignal to/from the optical blur correction processing unit 13 via theconnection pad 32B and the connection pad 51. For example, the interface73 reads data of the blur detection signal stored in the memory unit 72and supplies the same to the optical blur correction processing unit 13according to the request signal from the optical blur correctionprocessing unit 13.

The interface 74 executes processing of transmitting and receiving asignal to/from the gyro sensor 14 via the connection pad 33 and theconnection pad 61 and for example, writes data of the blur detectionsignal output from the gyro sensor 14 into the memory unit 72.

This leads to a configuration of the image pickup module 11B in whichthe optical blur correction processing unit 13 and the electronic blurcorrection processing unit 31 are allowed to independently executereading of data of the blur detection signal stored in the memory unit72.

Thus configured image pickup module 11B avoids large scaling as a wholesimilarly to the image pickup module 11 in FIG. 1. Further, in the imagepickup module 11B, by making the memory unit 72 store data of the blurdetection signal output from the gyro sensor 14, the optical blurcorrection processing unit 13 and the electronic blur correctionprocessing unit 31 are allowed to simultaneously (not exclusively) readdata of the blur detection signal.

It should be noted that in the image pickup module 11, for example, theinput terminal 42 in and the output terminal 42 out provided in theconnection pad 33 of the signal processing substrate 22 are respectivelyprovided as many as required according to a standard of communicationexecuted between the signal processing substrate 22 and the gyro sensor14. Additionally, this is also the case with the connection pad 32 ofthe signal processing substrate 22, the connection pad 51 of the opticalblur correction processing unit 13, and the connection pad 61 of thegyro sensor 14.

Additionally, other than the above-described configuration, the imagepickup module 11 may be configured such that, for example, the opticalblur correction processing unit 13 is incorporated in the signalprocessing substrate 22 and the electronic blur correction processingunit 31 is mounted on the printed board of the image pickup module 11.In other words, the present technologies is applicable to aconfiguration in which at least one of the optical blur correctionprocessing unit 13 and the electronic blur correction processing unit 31is incorporated into the signal processing substrate 22.

It should be noted that the image pickup module 11 of each of theabove-described embodiments is applicable to various kinds of electronicequipment, for example, an imaging system such as a digital still cameraor a digital video camera, a portable telephone set having an imagingfunction or other equipment having an imaging function.

FIG. 4 is a block diagram showing a configuration example of the imagepickup module 11 to be mounted on electronic equipment.

As shown in FIG. 4, an image pickup apparatus 101 is configured toinclude an optical system 102, an image pickup module 103, a signalprocessing circuit 104, a monitor 105, and a memory 106, and is capableof picking up a still image and a moving image.

The optical system 102 is configured to have one or a plurality oflenses and directs an image light (incident light) from a subject to theimage pickup module 103 to form an image on a light receiving surface(sensor unit) of the image pickup module 103. Additionally, the opticalsystem 102 is provided with a drive unit which drives a lens forcorrecting a blur of an image by the optical blur correction processingunit 13.

As the image pickup module 103, the image pickup module 11 of each ofthe above-described embodiments is applied. In the image pickup module103, electrons are accumulated in pixels for a predetermined time periodaccording to an image formed on the sensor surface via the opticalsystem 102. Then, a signal according to electrons accumulated in thepixels is supplied from the image pickup module 11 to the signalprocessing circuit 104.

The signal processing circuit 104 subjects an image signal output fromthe image pickup module 103 to various kinds of signal processing (e.g.white balance adjustment processing, gamma correction processing, or thelike). The image obtained by executing the signal processing by thesignal processing circuit 104 is supplied to the monitor 105 anddisplayed or supplied to the memory 106 and stored (recorded).

By applying the image pickup module 11 of each of the above-describedembodiments, thus configured image pickup apparatus 101 is allowed tohave improved functions and a reduced size.

FIG. 5 is a diagram showing an example of use of the above-describedimage pickup module 11 (image sensor).

The above-described image sensor can be used, for example, in thefollowing various cases of sensing light such as visible light, infraredlight, ultraviolet light, X-rays or the like.

Devices for photographing images for viewing, such as a digital camera,portable equipment with a camera function, and the like.

Devices for traffic use, such as a vehicle-mounting sensor whichphotographs the front and rear, surroundings and the inside of a car orthe like for the purpose of safety driving such as automatic stop, andfor the purpose of recognition of a driver's condition, a monitoringcamera which monitors traveling vehicles and roads, a distance sensorwhich measures a distance between vehicles, and the like.

-   -   Devices for use in such household appliances as a TV set, a        refrigerator, an air conditioner and the like for the purpose of        photographing a user's gesture to conduct equipment operation        according to the gesture.    -   Devices for medical/health care, such as an endoscope, a device        which conducts blood vessel photographing with a received        infrared light, and the like.    -   Devices for security use such as a monitoring camera for crime        prevention, a camera for person identification, and the like.    -   Devices for beauty care such as a skin sensor for photographing        a skin, a microscope for photographing a scalp, and the like.    -   Devices for sport use such as an action camera, a wearable        camera and the like for use in sports.    -   Devices for agricultural use such as a camera for monitoring        conditions of fields and farm products, and the like.

It should be noted that the present technology can take the fowlingconfigurations as well.

(1)

A solid-state image pickup element including:

-   -   an image sensor substrate in which a plurality of pixels is        arranged on a surface of a sensor; and    -   a signal processing substrate in which signal processing of an        image signal output from the image sensor substrate is executed,        in which    -   the signal processing substrate has:        -   a first blur correction processing unit which executes, by a            first correction method, processing of correcting a blur of            an image picked up in the image sensor substrate;        -   a first connection unit that connects with a second blur            correction processing unit which executes, by a second            correction method, processing of correcting a blur of the            image picked up in the image sensor substrate; and        -   a second connection unit that connects with a blur detection            unit which detects a blur generated in the image, and    -   is configured to have such connection that at least a part of        signals transmitted and received between the blur detection unit        and the second blur correction processing unit passes through        the inside of the signal processing substrate.        (2)

The solid-state image pickup element according to (1),

-   -   wherein the first connection unit has an input terminal through        which a signal to be supplied from the second blur correction        processing unit to the blur detection unit is input, and    -   a signal input through the input terminal is supplied to the        blur detection unit via the second connection unit after passing        through the inside of the signal processing substrate.        (3)

The solid-state image pickup element according to (1) or (2),

-   -   wherein the second connection unit has an output terminal        commonly used by an output of a signal to be supplied from the        first blur correction processing unit to the blur detection unit        and an output of a signal to be supplied from the second blur        correction processing unit to the blur detection unit after        passing through the inside of the signal processing substrate,        and    -   the signal processing substrate further has a selection unit        which exclusively selects a signal output from the output        terminal.        (4)

The solid-state image pickup element according to any of (1) to (3),which is configured to have such connection that a signal output fromthe blur detection unit and input to the signal processing substrate viathe second connection unit is branched inside the signal processingsubstrate and supplied to the first blur correction processing unit, aswell as being supplied to the second blur correction processing unit viathe first connection unit.

(5)

The solid-state image pickup element according to (1),

-   -   wherein the signal processing substrate further has a memory        unit which temporarily holds data of a signal output from the        blur detection unit, and    -   the first blur correction processing unit and the second blur        correction processing unit respectively read the data held in        the memory unit.        (6)

The solid-state image pickup element according to any of (1) to (5),

-   -   wherein the first blur correction processing unit corrects a        blur of the image by a correction method of moving an imaging        region on the sensor surface of the image sensor substrate, and    -   the second blur correction processing unit corrects a blur of        the image by a correction method of driving an optical system        which forms an image of a subject on the sensor surface of the        image sensor substrate.        (7)

An image pickup module including:

-   -   a solid-state image pickup element including an image sensor        substrate in which a plurality of pixels is arranged on a        surface of a sensor; and a signal processing substrate in which        signal processing of an image signal output from the image        sensor substrate is executed and which has a first blur        correction processing unit that executes, by a first correction        method, processing of correcting a blur of an image picked up in        the image sensor substrate;    -   a second blur correction processing unit which executes, by a        second correction method, processing of correcting a blur of the        image picked up in the image sensor substrate; and    -   a blur detection unit which detects a blur generated in the        image, in which    -   the signal processing substrate has:        -   a first connection unit that connects with the second blur            correction processing unit; and        -   a second connection unit that connects with the blur            detection unit, and    -   is configured to have such connection that at least a part of        signals transmitted and received between the blur detection unit        and the second blur correction processing unit passes through        the inside of the signal processing substrate.        (8)

Electronic equipment including an image pickup module, the image pickupmodule including:

-   -   a solid-state image pickup element including an image sensor        substrate in which a plurality of pixels is arranged on a        surface of a sensor; and a signal processing substrate in which        signal processing of an image signal output from the image        sensor substrate is executed and which has a first blur        correction processing unit that executes, by a first correction        method, processing of correcting a blur of an image picked up in        the image sensor substrate;    -   a second blur correction processing unit which executes, by a        second correction method, processing of correcting a blur of the        image picked up in the image sensor substrate; and    -   a blur detection unit which detects a blur generated in the        image, in which    -   the signal processing substrate has:        -   a first connection unit that connects with the second blur            correction processing unit; and        -   a second connection unit that connects with the blur            detection unit, and    -   is configured to have such connection that at least a part of        signals transmitted and received between the blur detection unit        and the second blur correction processing unit passes through        the inside of the signal processing substrate.

It should be noted that the embodiments of the present disclosure arenot limited to the above-described embodiments, and variousmodifications may be made without departing from the scope of thepresent disclosure.

REFERENCE SIGNS LIST

-   11 Image pickup module-   12 Solid-state image pickup element-   13 Optical blur correction processing unit-   14 Gyro sensor-   21 Image sensor substrate-   22 Signal processing substrate-   31 Electronic blur correction processing unit-   32 and 33 Connection pad-   34 Selector-   Olin Input terminal-   42 in Input terminal-   42 out Output terminal-   51 Connection pad-   52 in Input terminal-   52 out Output terminal-   61 Connection pad-   62 in Input terminal-   62 out Output terminal-   71 Data buffer-   72 Memory unit-   73 and 74 Interface

1-8. (canceled)
 9. A solid-state image pickup element comprising: animage sensor including a plurality of pixels and an electronic blurcorrection processing unit; an optical blur correction processing unit;and a gyro sensor, wherein the image sensor includes a first inputterminal, a first output terminal, a second input terminal, and a secondoutput terminal, the gyro sensor includes a third output terminalconnected to the first input terminal of the image sensor, and theoptical blur correction processing unit includes a fourth outputterminal connected to the second input terminal of the image sensor, thegyro sensor includes a third input terminal connected to the firstoutput terminal of the image sensor, and the gyro sensor is connected tothe optical blur correction processing unit through the image sensor.10. The solid-state image pickup element according to claim 9 whereinthe gyro sensor is configured to receive a signal according to a signalconveyed through the fourth output terminal, the second input terminal,the first output terminal, and the third input terminal.
 11. Thesolid-state image pickup element according to claim 9, wherein theoptical blur correction processing unit includes a fourth input terminaldirectly connected to the third output terminal.
 12. The solid-stateimage pickup element according to claim 9, wherein the optical blurcorrection processing unit includes a fourth input terminal connected tothe third output terminal through the image sensor.
 13. The solid-stateimage pickup element according to claim 9, wherein the image sensorincludes a selector that outputs a signal from the electronic blurcorrection processing unit and a signal from the optical blur correctionprocessing unit to the gyro sensor.